Data processing method and system for intercepting signals between a peripheral device and a software application

ABSTRACT

The present invention relates to a data processing method, including the steps of intercepting a signal within a communications channel between a pre-defined peripheral device for a computing system and an application executing on the computing system and processing the signal and performing one or more actions in response to the processing. At least one action affects onward transmission of one or more signals within the communications channel. A data processing system is also described.

FIELD OF INVENTION

The present invention is in the field of data processing. Particularly,but not exclusively, the present invention relates to the interceptionand processing of data from a hardware device in a computing system.

BACKGROUND

It is often desirable to add functionality to deployed technologyarchitectures. However, introducing new functionality often requiressubstantial modification to the already deployed technology.Modification is generally undesirable as it can introduce unexpectedeffects within interoperating technology and increase the chances oferrors occurring within complex technology.

One field which finds it challenging to improve functionality is theretail sector, particularly in regard to their point-of-sale terminalswhich tend to be installed and operated by monopoly technologyproviders.

Retail is, conversely, a field which would derive tremendous advantagefrom new processes. For example, coupons in new forms have attracted theinterest and engagement of consumers. Retailers would like to implementnew and intelligent processes for managing coupons in their stores.

Accordingly, there is a desire for additional functionality deployingnew processes to be added to legacy computing systems, in particular inretail.

With couponing, there are several improvements that would usefullyimprove the functionality of existing retail systems. For example, itmay be desirable to apply discounts to particular items of a basket orother complex rules to discounts, or it may be useful for coupons totrigger specific prompts to the terminal operator.

To implement these improvements, an improved data processing method andsystem which is easily deployed into legacy environments is required.

It is an object of the present invention to provide a data processingsystem which overcomes the disadvantages of the prior art, or at leastprovides a useful alternative.

SUMMARY OF INVENTION

According to a first aspect of the invention there is provided a dataprocessing method including: intercepting a signal within acommunications channel between a predefined peripheral device for acomputing system and an application executing on the computing system;and processing the signal and performing one or more actions in responseto the processing; wherein at least one action affects onwardtransmission of one or more signals within the communications channel.

According to a further aspect of the invention there is provided a dataprocessing system comprising: an interceptor module configured forintercepting signals within a communications channel between apredefined peripheral device for a computing system and an applicationexecuting on the computing system; and a processor configured forprocessing the intercepted signals and performing one or more actions inresponse to the processing; wherein at least one of the actions affectsonward transmission of one or more signals within the communicationschannel.

Other aspects of the invention are described within the claims.

BRIEF DESCRIPTION OF THE DRAWINGS

Embodiments of the invention will now be described, by way of exampleonly, with reference to the accompanying drawings in which:

FIG. 1: shows a data processing system in accordance with an embodimentof the invention;

FIG. 2: shows another data processing system in accordance with anembodiment of the invention;

FIG. 3: shows a communications architecture in accordance with anembodiment of the invention;

FIG. 4: shows another communications architecture in accordance with anembodiment of the invention;

FIG. 5: shows a flow chart illustrating a method in accordance with anembodiment of the invention;

FIG. 6: shows a block diagram illustrating a message format of signalsused within an embodiment of the invention;

FIG. 7: shows a block diagram illustrating a software interceptor modulewithin an operating system in accordance with an embodiment of theinvention;

FIG. 8: shows a sequence diagram illustrating message flow within amethod in accordance with an embodiment of the invention; and

FIG. 9: shows a data processing system in accordance with an embodimentof the invention.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

The present invention provides a data processing system.

The inventors have discovered that additional functionality can be addedto legacy POS systems without substantial changes being made to thoselegacy systems by intercepting signals within communication channelsbetween the POS systems and their peripherals.

For example, when a barcode scanner reads a coupon it transmits amessage encoding the coupon barcode to the POS application executing onthe POS terminal. One implementation of the invention can intercept thatmessage, and use it to provide additional couponing functionality,whether by sending the data to a central server or by generatingdifferent messages to send to the POS application.

The inventors have discovered that the invention results in the abilityto accommodate new data flows within existing computing systems withoutrequiring changes to: the application software utilising the data flow,in some cases the peripherals providing the data flow, and even anyexisting data flows. Due to this innovation, these improved computingsystems can receive unexpected data within signals to/from peripheralsand utilise this data without the unexpected data causing system orperipheral errors or failures.

In FIG. 1, a data processing system 100 in accordance with an embodimentof the invention is shown.

A computing system 101 is shown. The computing system 101 is configuredto execute a software application. The computing system 101 may be apoint-of-sale (POS) terminal configured to execute an electronicpoint-of-sale (EPOS) software application.

The computing system 101 includes a processor and a memory. Thecomputing system 101 may also include a display and a user input forinteracting with a user.

An interceptor module embodied within an interceptor apparatus 102 isshown. The interceptor apparatus 102 is connected to the computingsystem, 101 for example, by a port on the computing system 101. Theconnection permits signals to be transmitted and received between theinterceptor apparatus 102 and the computing system 101.

The interceptor apparatus 102 includes a processor and a memory. Theinterceptor apparatus 102 may include a display and a user input forinteracting with the user.

A peripheral device 103 is shown. The peripheral device 103 may be aninput hardware device, such as a barcode scanner, keyboard, or fuelindicator for petrol station forecourts, or any other type of inputdevice.

In one embodiment, the peripheral device 103 may be an output peripheraldevice, such as a printer, a cash drawer, or a customer display pole fora point-of-sale terminal. In such an embodiment, the interceptorapparatus 102 may be configured to intercept signals transmitted fromthe application software to the peripheral device 103.

The peripheral device 103 is connected to the interceptor apparatus 102such that signals can be transmitted and received between theinterceptor apparatus 102 and the peripheral device 103. For example theperipheral device 103 may be connected via a USB connection with theinterceptor apparatus 102. It will be appreciated that any other type ofconnection may be utilised including serial or parallel connections,adapters from one communications type into another such as a serial toUSB connector, wireless connections such as wifi or Bluetooth, orproprietary connections such as Apple's lightning connector.

The interceptor apparatus 102 may be configured to initiate acommunications channel between the peripheral device 103 and theapplication executing on the computing system 101. The interceptorapparatus 102 may be further configured to intercept signals transmittedvia the communications channel between the peripheral device 103 and theapplication on the computing system 101.

The interceptor apparatus 102 may be further configured to receiveand/or transmit signals transmitted to/from further peripheral devices.The further peripherals devices may not be configured to interfacedirectly with the application software. For example, the applicationsoftware may be legacy application software and the peripherals may benew peripherals. The further peripheral devices may include an opticalscanner, a webcam, an RFID reader, an NFC reader and an interactivedisplay.

The interceptor apparatus 102 may be further configured to receiveand/or transmit signals from/to an external server via a communicationschannel across a network such as via Ethernet or wifi.

The interceptor apparatus 102 may be configured to process those signalsand to perform an action on the basis of that processing.

Further details on processing will be described in relation to FIG. 5.

In one embodiment, the actions the interceptor apparatus 102 may beconfigured to perform include blocking the signal from the peripheraldevice 103 to the computing system 101, replacing the signal with one ormore different signals, and/or communicating the signal or data relatingto the signal to an external server.

In FIG. 2, a data processing system 200 in accordance with anotherembodiment of the invention is shown.

A computing system 201 is shown. The computing system 201 is configuredto execute a software application 201 a. The computing system 201 may bea point-of-sale (POS) terminal configured to execute an electronicpoint-of-sale (EPOS) software application.

to The computing system 201 includes a processor and a memory. Thecomputing system 201 may also include a display and a user input forinteracting with a user.

The computing system 201 is further configured to execute an interceptormodule 202.

A peripheral device 203 is shown. The peripheral device 203 may be aninput hardware device, such as a barcode scanner, a keyboard, or fuelindicator for petrol station forecourts, or any other type of inputdevice.

The peripheral device 203 may be connected to the computing system 201such that signals can be transmitted and received between the peripheraldevice 203 and the computing system 201. The computing system 201 isfurther configured to process, interpret, and relay those signals viathe operating system and a device driver to the application software 201a executing on the computing system 201.

The interceptor module 202 may be configured to intercept signalstransmitted from the peripheral device 203 to the application software201 a.

In one embodiment, the peripheral device 203 may be an output peripheraldevice, such as a printer, a cash drawer, or a customer display pole fora point-of-sale terminal, In such an embodiment, the interceptor module202 may be configured to intercept signals transmitted from theapplication software to the peripheral device 203.

The interceptor module 202 may be configured to replace the devicedriver from the perspective of the application software 201 a, such thatsignals to and from the application software are routed through theinterceptor module 202 to and from the device driver.

to The interceptor module 202 may be further configured to receiveand/or transmit signals transmitted to/from further peripheral devices.The further peripherals devices may not be configured to interfacedirectly with the application software. For example, the applicationsoftware 201 a may be legacy application software and the peripheralsmay be new peripherals. The further peripheral devices may include anoptical scanner, a webcam, an RFID reader, an NFC reader and aninteractive display.

The interceptor module 202 may be further configured to receive and/ortransmit signals from/to an external server via a communications channelacross a network such as via Ethernet or wifi.

The interceptor module 202 may he configured to process those signalsand to perform an action on the basis of that processing.

Further details on processing will be described later in the documentwith reference, in particular, to FIG. 5.

In one embodiment, the actions the interceptor module 202 may beconfigured to perform include blocking the signal from the peripheraldevice 203 to the application software 201 a, replacing or augmentingthe signal with one or more different signals, and/or communicating thesignal or data relating to the signal to an external server.

In FIG. 3, an exemplary deployment of a data processing system within anetwork architecture in accordance with an embodiment of the inventionis shown.

A data processing system 300 as described in relation to FIG. 1 or 2 isshown.

The data processing system 300 may be further configured to communicatewith a server 301 via a network 302.

In FIG. 4, an alternative exemplary deployment of a data processingsystem within a network architecture in accordance with an embodiment ofthe invention is shown.

A plurality of data processing systems 400, 401, and 402 as described inrelation to FIG. 1 or 2 are shown.

The data processing systems 400, 401, and 402 may be connected to anetwork 403. The network 403 may be connected to a second network 404via a gateway 405.

The data processing systems 400, 401, and 402 may be further configuredto communicate with a server 406 via the first network 403, the gateway405, and the second network 404.

It will be appreciated that alternative deployments of the dataprocessing system may be envisaged. For example, with cloud computingarchitectures, functions may be distributed amongst a plurality ofdevices or servers, which may be interconnected by various network andcommunication configurations.

In FIG. 5, a method 500 in accordance with an embodiment of theinvention is shown.

In step 501, signals are received from the peripheral device by theinterceptor module. The signals may be related to data captured by theperipheral device.

For example, the peripheral device may capture and encode barcode datafrom printed barcodes.

In one embodiment, signals are instead received from the applicationgoing to a peripheral device by the interceptor module. The signals maybe related to data intended for output on the peripheral device. Forexample, the peripheral device may be a till printer.

In step 502, the interceptor module processes the signals.

In one embodiment, the interceptor module may capture all the datarelating to the signals but forward the data onto to the applicationsoftware. For example, it may capture all the barcodes scanned within aparticular session (such as a specific customer session). Theinterceptor module can then build a “basket” of products to be purchasedby the customer. One or more barcodes may relate not to a product assuch, but may be a coupon for, for example, a discount. The interceptormodule can process the captured product information in accordance withrules to determine if conditions defined for the coupon are met before adiscount is applied. In order to apply the discount, the interceptormodule may permit the ongoing transmission to the application softwareof the signal relating to the coupon or the interceptor module maygenerate a specific signal incorporating a pseudo barcode that theapplication software will interpret as an amount to discount for ongoingtransmission to the application software. In one embodiment, a specificcoupon may not need to be applied to actuate a discount, but thecontents of the basket itself, if complying with rules, may qualifyactuation of a discount. In this embodiment, the “coupon” may identifythe customer and that specific customer may be eligible for discounts. Alook up to a remote server may be made to validate the identity of thecustomer and/or validate eligibility.

In one embodiment, the interceptor module may as part of the processing,request further information from an external server. The data processingsystem may communicate with the external server to retrieve thisinformation. For example, the interceptor module may request that acoupon (extracted from the signals) is validated by the external serverbefore it is to be applied.

In one embodiment, the interceptor module may as part of the processinggenerate the display of a prompt to the operator of the computingsystem. The prompt may be displayed on a display of the computing systemor the prompt may be displayed on an external display connected, forexample, to the interceptor apparatus. The operator response to theprompt can be received by the interceptor module and determine whether acoupon or discount should be applied or not.

In step 503, the interceptor module performs one or more actionsresulting from the processing.

The actions may include forwarding the signal onto the applicationsoftware, capturing the signal, or transmitting information to anexternal server.

Preferably the actions include at least one action which affects theonward transmission within the communications channel of at least onesignal such as modifying the signal before forwarding on, blocking thesignal, generating one or more new signals for onward transmission,and/or delaying transmission of the signal while awaiting a response toa prompt.

In one embodiment, the interceptor module modifies the signalsintercepted from the application software to replace data or insert datainto the signals. For example, where the signals are intended forreceipt by a till printer, the original signals may incorporate templatetext; and the interceptor module may replace the template text with newtext,

FIG. 6 shows the format of signals communicated between the applicationsoftware and the peripheral device in one embodiment of the invention.

Within that figure:

-   PID=Packet ID which identifies the type of packet being sent:-   ADDR=Address field of device for which the packet is intended;-   ENDP=Endpoint;-   CRC=Cyclic Redundancy Check; and-   EOP=End of Packet.

For input peripheral devices, token packets 600 are transmitted from theapplication software to the interceptor module and then from theinterceptor module to the input peripheral device.

In response to receipt of the token packets 600, data packets 601 areconstructed and sent from the input peripheral device to the interceptormodule and then from the interceptor module to the application software.

In response to receipt of the data packets 601, status packets 602 areconstructed and send from the application software to the interceptormodule and then from the interceptor module to the input peripheraldevice.

The process is reversed where the peripheral device is an outputperipheral device.

A software interceptor module 700 in accordance with an embodiment ofthe invention will now be described with reference to FIG. 7.

The method will be described in relation to the use of a softwareinterceptor module 700 executing on the computing system and in relationto the use for improving a computing system executing a point-of-sale(POS) software application 701.

The software interceptor module 700 is installed at the operating systemlevel on the same device (the computing system) that is hosting thedriver software 702 for the peripherals 703.

To create and install the software interceptor module 700:

-   1. A software object ‘wedge’ 704 is created which presents the same    interface to the POS application 701 as the original peripheral    class 705.-   2. The FOS software 701 is configured to load the wedge object 704    instead of the original class 705.-   3. The ‘wedge’ object 704 in turn loads the original peripheral    driver class 705.

The following description is for POS for .NST but, with suitablemodifications, the invention of substituting one object's registrationwith another would equally well work with other peripheral driverstandards such as OPOS and JPOS.

Initially a software object 704 is created which presents the sameinterlace to the POS as the original bar scanner class 705. In POS for.NET these objects are called Service Objects or SOs. The POS software701 must then be configured to load the created SO 704 instead of theoriginal class 705. How this happens will be dependent upon the clientsoftware 701. For example, if the client software 701 has aconfiguration file containing the name of an SO to load then this may bealtered to load the wedge 704 instead, If no such configuration file isavailable and the SO 705 is being loaded by name directly then thereplacement object 704 could be given the same name as the original 705and copied in its place on the filing system, with the original 705being moved aside to a known location to be loaded manually by the wedge704.

A POS for .NET service object browser object can be used to retrieve alist of available SOs which may be queried according to the device typethey represent. A registry key contains values representing directorieswhere service object binaries reside. This is used by the browser tofind SOs. The wedge object's directory is added to this key. A mechanismexists in POS for .NET to redefine the hardware device with which an SOis associated, and this may be used to dynamically link the wedge SOwith a particular hardware device ID at installation time. A config fileis written which maps the hardware ID to a particular SO's name, andthis is placed in a folder which is added to another registry key usedby POS for .NET to locate such config files. At device instantiationtime POS for .NET will load any config files it finds and dynamicallyuse the mapping contained within to load the appropriate SO for thedevice with the referenced hardware ID being opened. The ID of thehardware to be replaced can be extracted from metadata exposed by thedevice's hardware manager.

The wedge SO 704 may be created so that it fully implements the classhierarchy which is being intercepted. For example the POS for .NETstandard defines a class for scanners which has at its top level a classcalled ScannerBase. This in turn inherits from multiple other classes,all of which can he implemented in order to maintain the inheritancehierarchy and polymorphic nature of the class.

At instantiation time an instance of the original class 705 should becreated and held for the lifetime of the wedge object 704. For eachpublicly accessible method in the hierarchy the implementation isinitially replaced with a call to the matching method on the capturedobject 705 to give a simple pass-through implementation.

Events typically occur when new data arrives, Any events originating inthe original class 705 can be similarly overloaded with matching wedgeevent handlers.

Once this process is complete, when an interface method is called by thePOS 701, it is thus calling the associated method on the wedge 704 andwhen an event is triggered by new data, it is similarly being handled bythe wedge 704. As long as the wedge object 704 is simply passing on themethods and events, the POS Software 701 and the peripheral drivers 706will operate as if the wedge object 704 did not exist.

The wedge 704 can include further processing logic to redirect themethod and event data to other software modules 707 to 710 to processthe received data and, based on instructions from those modules,replacing, discarding or injecting new data into the original datatravelling to/from the peripherals 703.

A sequence diagram showing message flow within a data processing systemin accordance with an embodiment of the invention will now be describedwith reference to FIG. 8.

A barcode is scanned by a barcode scanner and the data is sent in step800 to the application software for an electronic point-of-sale (EPOS)terminal.

The barcode may be presented for scanning during the scanning of aseries of goods for a customer. The series of goods, any coupons,identifiers and payment tokens will be termed a basket.

An interceptor module intercepts the data and sends the data in step 801to a basket builder and evaluator module.

In one embodiment, if the basket builder and evaluator module does nottimely return with instructions to the interceptor module, theinterceptor module forwards the data directly to the EPOS as in step802.

The basket builder and evaluator module adds any goods it identifieswithin the data to the basket it is tracking for the customer in step803.

The basket builder and evaluator module may then make a lookup requestusing the data from a remote server in step 804. For example, if thedata relates to a presented coupon rather than a particular good, thebasket builder and evaluator may need to verify if the coupon is valid.

The basket builder and evaluator module may evaluate the current basketin step 805 for the customer to determine if the goods within the basketqualify for a particular action (e.g. a discount).

The basket builder and evaluator module may prompt for input from theEPOS user/operator before applying an action in step 805. For example,there may be local conditions that the user is required to verify (e.g.is the customer is over the age of 65 or is female, etc.) These localconditions may be required, for example, in relation to a presentedcoupon or to the particular discounts presently in effect.Alternatively, the prompt may inform the EPOS operator that a couponappears to be invalid and giving them the option to accept or reject thecoupon; or the prompt may request a code for a one-time CAN (CouponAuthentication Number) protected coupons, which the customer or operatorenters (the code may then checked for previous use).

The basket builder and evaluator module may prompt for input atdifferent times during the process.

The basket builder and evaluator module may then generate instructionsin step 807 for the interceptor module based on one or more of theconstitution of the basket, the validity of any presented coupon and theverification of the required elements.

The instructions may result in the interceptor module performing one ofmore of forwarding the data unchanged to the EPOS as in step 808,modifying the data and forwarding to the EPOS, or generating and sendingdata to the EPOS to trigger an action known to the EPOS (for example,applying a discount of a specified amount or percentage) as in step 809.

For example, where two items are scanned in a “50 p off second itemoffer”, the data representing the scanned barcode for the second itemmay be transmitted to the EPOS and data representing instructions toapply 50 p off discount may be transmitted to the EPOS.

Although FIG. 8 shows a barcode scanner as the source of a barcode scan,the interceptor module can equally intercept data feeds from otherperipherals including standard EPOS peripherals (e.g. cash drawer,receipt printer) and proprietary peripherals (in the case of proprietaryperipherals data would not be forwarded directly on to the EPOS withoutmodification or replacement as the peripheral is unknown to the EPOS).

Instructions returned to the interceptor by the basket builder andevaluator module can be multiple instructions. So one real barcode scancan lead to multiple injected barcodes (e.g. to trigger the right amountof discount).

The interceptor module can be either hardware or software based withmessaging being the same.

A data processing system illustrating an interceptor module within aninterceptor apparatus in accordance with an embodiment of the inventionwill now be described with reference to FIG. 9.

The interceptor apparatus may comprise a processor and memory within acommunications hub 900 or within an attached interactive display (adisplay and an input) 901. The interceptor apparatus may execute theinterceptor module. The interactive display may be configured to displayprompts to a user of the EPOS terminal generated by the interceptorapparatus and to receive responses from the user. The responses may heutilised to determine the actions performed by the interceptorapparatus.

Communications routed through the hub 900 may be intercepted by theinterceptor module.

The communications hub 900 may have USB connections or othercommunications inputs. Adaptors may be used to connect non-USBinputs/outputs to the USB connections.

Input and output peripherals 902 to 907 may be connected to thecommunications hub 900.

The communications hub 900 may be connected to an electronicpoint-of-sale (POS) terminal 908 through one or more communicationconnections. For example, the POS terminal 908 may utilise industrystandard input/output connections such as “scanner in”, “printer out”,and “cash drawer out”.

The communications hub 900 may include a wifi dangle 909 and/or anEthernet connection 910 to communicate with an external server 911.

In the case of a standard USB input device (such as a barcode scanner),the interceptor module may (in most circumstances) simply pass on theUSB packets between the POS (acting as a USB Host) and the peripheral (aUSB device).

However, where the interceptor module has been configured (for example)to prompt for a verification of a coupon scanned by a barcode scanner,the behaviour will change. When the interceptor module receives a tokenpacket from the POS requesting any data, the interceptor module willreturn a NAK status packet indicating that no data is available. Thiswill happen repeatedly until the prompt has been actioned by the userand during this time, no token packet will be passed onto the POS InputPeripheral. If the result of the prompt response is to permit thecoupon, the next token packet from the FOS will result in the datapacket corresponding to the coupon barcode being returned (otherwise,the coupon data packet is discarded). Assuming no other configurationswould prevent it, normal communications between the peripheral and POSmay then he resumed.

A potential advantage of some embodiments of the present invention isthat additional functionality can be added to an application on acomputing system with external peripherals without requiring theapplication to be modified. Accordingly, a data processing system inaccordance with the invention results in an improved computing systemcan execute legacy software whilst remaining reliable.

While the present invention has been illustrated by the description ofthe embodiments thereof, and while the embodiments have been describedin considerable detail, it is not the intention of the applicant torestrict or in any way limit the scope of the appended claims to suchdetail. Additional advantages and modifications will readily appear tothose skilled in the art. Therefore, the invention in its broaderaspects is not limited to the specific details, representative apparatusand method, and illustrative examples shown and described. Accordingly,departures may be made from such details without departure from thespirit or scope of applicant's general inventive concept.

1. A data processing method performed by an interceptor module,including: a) intercepting a plurality of signals within acommunications channel between a predefined peripheral device for anelectronic point-of-sale (EPOS) terminal and an EPOS applicationexecuting on the EPOS terminal; and b) processing the plurality ofsignals and performing one or more actions in response to theprocessing, wherein at least one action affects onward transmission ofone or more of the plurality of signals within the communicationschannel and wherein at least some of the plurality of signals are datapackets.
 2. The data processing method as claimed in claim 1, furtherincluding the step of first constructing a communications channelbetween the predefined peripheral device and the EPOS application. 3.The data processing method as claimed in claim 2, wherein thecommunications channel is constructed by creating a replacement driverfor the predefined peripheral device.
 4. The data processing method asclaimed in claim 1, wherein the peripheral device is an input device. 5.The data processing method as claimed in claim 1, the signal comprises asingle message constructed in a defined message format.
 6. The dataprocessing method as claimed in claim 1, wherein the one or more actionsinclude modifying the signal and injecting the modified signal into thecommunications channel for receipt by the application.
 7. The dataprocessing method as claimed in claim 1, wherein the one or more actionsinclude removing the signal from the communications channel such that itis not received by the application.
 8. The data processing method asclaimed in claim 1, wherein the one or more actions include injectingone or more further signals into the communications channel for receiptby the application.
 9. The data processing method as claimed in claim 1,further including the step of requesting input from a user of acomputing system, and wherein the signal is processed in accordance withinput received from the user.
 10. The data processing method as claimedin claim 1, further including the step of receiving a different signalfrom a further peripheral device, and wherein the signal is processed inaccordance with the different signal and wherein the further peripheraldevice is not recognised directly by the application.
 11. The dataprocessing method as claimed in claim 1, wherein the signals areintercepted at the operating system level.
 12. The data processingmethod as claimed in claim 1, wherein the signals are intercepted by anintermediary hardware device into which the predefined peripheral deviceis connected and which in turn is connected to a computing system. 13.The data processing method as claimed in claim 1, wherein the processingoccurs, at least in part, in accordance with a stored set ofinstructions.
 14. The data processing method as claimed in claim 1,wherein the processing occurs, at least in part, with assistance of anexternal server.
 15. The data processing method as claimed in claim 1,wherein the predefined peripheral device is a barcode reader.
 16. Thedata processing method as claimed in claim 1, wherein the predefinedperipheral device is not known to the EPOS application.
 17. The dataprocessing method as claimed in claim 1, wherein the at least one actionincludes modification of at least one of the plurality of signals toaugment functionality of the EPOS application.
 18. The data processingmethod as claimed in claim 1, wherein the predefined peripheral devicecommunicates in accordance with a first protocol not known to the EPOSapplication and wherein the at least one action includes modification ofat least one of the plurality of signals to a second protocol known tothe EPOS application.
 19. The data processing method as claimed in claim1, wherein at least one of the plurality of signals includesinstructions not known to the EPOS application and wherein the at leastone action includes replacement of the instructions not known to theEPOS application with instructions known to the EPOS application. 20.(canceled)
 21. (canceled)
 22. (canceled)
 23. (canceled)
 24. A dataprocessing system comprising: an interceptor module configured forintercepting signals within a communications channel between apredefined peripheral device for an electronic point-of-sale (EPOS)terminal and an EPOS application executing on the EPOS terminal; and aprocessor configured for processing the intercepted signals andperforming one or more actions in response to the processing, wherein atleast one of the actions affects onward transmission of one or moresignals within the communications channel and wherein the signalsinclude one or more data packets.
 25. The data processing system asclaimed in claim 24, further comprising: the electronic point-of-sale(EPOS) terminal, wherein the electronic point-of-sale (EPOS) terminal isconfigured for executing the interceptor module.
 26. The data processingsystem as claimed in claim 24, further comprising: an interceptorapparatus configured for executing the interceptor module.
 27. The dataprocessing system as claimed in claim 24, further comprising: a displayconfigured for displaying prompts to an operator of the electronicpoint-of-sale (EPOS) terminal; and an input configured for receivingresponses to the prompts from the operator, wherein the processor isfurther configured for generating the display of prompts and receivingthe responses, and wherein the performance of the one or more actions isdependent, at least in part, on the responses.
 28. The data processingsystem of claim 27, wherein the processor is further configured to:transmit, to a remote server, request for data relating to one or moreof the intercepted signals; in response to the request, receiving datafrom the remote server; and the processing includes processing theintercepted signals based on the received responses and the datareceived from the remote server.
 29. The data processing system asclaimed in claim 24, wherein the one or more actions include blockingone or more of the intercepted signals from onward transmission withinthe communications channel, replacing at least one of the interceptedsignals with another signal, augmenting at least one of the interceptedsignals, and injecting one or more additional signals into thecommunications channel.
 30. A non-transitory computer-readable storagemedium having stored therein a computer program for execution by acomputer, the computer program, when executed, causes the computer to atleast: intercept a plurality of signals within a communications channelbetween a predefined peripheral device for an electronic point-of-sale(EPOS) terminal and an EPOS application executing on the EPOS terminal;and process the plurality of signals and performing one or more actionsin response to the processing, wherein at least one action affectsonward transmission of one or more of the plurality of signals withinthe communications channel and wherein at least some of the plurality ofsignals are data packets.